A DCT-based approach for dynamic 3D mesh compression

Khaled Mamou; Titus Zaharia; Francoise Preteux

A DCT-based approach for dynamic 3D mesh compression

Khaled Mamou
, Titus Zaharia
, Francoise Preteux

CNRS SAMOVAR UMR 5157

Research output: Contribution to journal › Article › peer-review

Abstract

This paper proposes a Temporal DCT-based encoder (TDCT) for 3D dynamic meshes with constant connectivity and time-varying geometry. The proposed TDCT compression scheme exploits a motion compensation strategy combined with a DCT-based representation of the residual errors. The performances of our encoder are objectively evaluated on a corpus of six animation sequences with various sizes, geometries and topologies, and exhibiting both rigid and elastic motions. The experimental evaluation shows that the TDCT encoder outperforms (with gains in bitrate from 25% to 63%) GV, MCGV, RT, MPEG-4/AFX-IC, D3DMC, PCA and Dynapack techniques.

Original language	English
Pages (from-to)	1947-1954
Number of pages	8
Journal	WSEAS Transactions on Information Science and Applications
Volume	3
Issue number	10
Publication status	Published - 1 Oct 2006
Externally published	Yes

Keywords

DCT
Dynamic 3D mesh compression
Motion-based segmentation
Piecewise affine prediction

Cite this

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title = "A DCT-based approach for dynamic 3D mesh compression",

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N2 - This paper proposes a Temporal DCT-based encoder (TDCT) for 3D dynamic meshes with constant connectivity and time-varying geometry. The proposed TDCT compression scheme exploits a motion compensation strategy combined with a DCT-based representation of the residual errors. The performances of our encoder are objectively evaluated on a corpus of six animation sequences with various sizes, geometries and topologies, and exhibiting both rigid and elastic motions. The experimental evaluation shows that the TDCT encoder outperforms (with gains in bitrate from 25% to 63%) GV, MCGV, RT, MPEG-4/AFX-IC, D3DMC, PCA and Dynapack techniques.

AB - This paper proposes a Temporal DCT-based encoder (TDCT) for 3D dynamic meshes with constant connectivity and time-varying geometry. The proposed TDCT compression scheme exploits a motion compensation strategy combined with a DCT-based representation of the residual errors. The performances of our encoder are objectively evaluated on a corpus of six animation sequences with various sizes, geometries and topologies, and exhibiting both rigid and elastic motions. The experimental evaluation shows that the TDCT encoder outperforms (with gains in bitrate from 25% to 63%) GV, MCGV, RT, MPEG-4/AFX-IC, D3DMC, PCA and Dynapack techniques.

KW - DCT

KW - Dynamic 3D mesh compression

KW - Motion-based segmentation

KW - Piecewise affine prediction

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JF - WSEAS Transactions on Information Science and Applications

IS - 10

ER -

A DCT-based approach for dynamic 3D mesh compression

Abstract

Keywords

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